processing before digit recognition with KNN classifier
Right now I'm trying to create digit recognition system using OpenCV. There are many articles and examples in WEB (and even on StackOverflow). I decided to use KNN classifier because this solution is the most popular in WEB. I found a database of handwritten digits with a training set of 60k examples and with error rate less than 5%.
I used this tutorial as an example of how to work with this database using OpenCV. I'm using exactly same technique and on test data ( t10k-images.idx3-ubyte
) I've got 4% error rate. But when I try to classify my own digits I've got much bigger error. For example:
And so on (I can upload all images if it's needed).
As you can see all digits have good quality and are easily-recognizable for human.
So I decided to do some pre-processing before classifying. From the table on MNIST database site I found that people are using deskewing, noise removal, blurring and pixel shift techniques. Unfortunately almost all links to the articles are broken. So I decided to do such pre-processing by myself, because I already know how to do that.
Right now, my algorithm is the following:
rough).
I think that deskewing is not needed in my situation because all digits are normally rotated. And also I have no idea how to find a right rotation angle. So after this I've got these images:
So, such pre-processing helped me a bit, but I need better results, because in my opinion such digits should be recognized without problems.
Can anyone give me any advice with pre-processing? Thanks for any help.
PS I can upload my source (c++) code.
I realized my mistake - it wasn't connected with pre-processing at all (thanks to @DavidBrown and @John ). I used handwritten dataset of digits instead of printed (capitalized). I didn't find such database in the web so I decided to create it by myself. I have uploaded my database to the Google Drive.
And here's how you can use it (train and classify):
int digitSize = 16;
//returns list of files in specific directory
static vector<string> getListFiles(const string& dirPath)
{
vector<string> result;
DIR *dir;
struct dirent *ent;
if ((dir = opendir(dirPath.c_str())) != NULL)
{
while ((ent = readdir (dir)) != NULL)
{
if (strcmp(ent->d_name, ".") != 0 && strcmp(ent->d_name, "..") != 0 )
{
result.push_back(ent->d_name);
}
}
closedir(dir);
}
return result;
}
void DigitClassifier::train(const string& imagesPath)
{
int num = 510;
int size = digitSize * digitSize;
Mat trainData = Mat(Size(size, num), CV_32FC1);
Mat responces = Mat(Size(1, num), CV_32FC1);
int counter = 0;
for (int i=1; i<=9; i++)
{
char digit[2];
sprintf(digit, "%d/", i);
string digitPath(digit);
digitPath = imagesPath + digitPath;
vector<string> images = getListFiles(digitPath);
for (int j=0; j<images.size(); j++)
{
Mat mat = imread(digitPath+images[j], 0);
resize(mat, mat, Size(digitSize, digitSize));
mat.convertTo(mat, CV_32FC1);
mat = mat.reshape(1,1);
for (int k=0; k<size; k++)
{
trainData.at<float>(counter*size+k) = mat.at<float>(k);
}
responces.at<float>(counter) = i;
counter++;
}
}
knn.train(trainData, responces);
}
int DigitClassifier::classify(const Mat& img) const
{
Mat tmp = img.clone();
resize(tmp, tmp, Size(digitSize, digitSize));
tmp.convertTo(tmp, CV_32FC1);
return knn.find_nearest(tmp.reshape(1, 1), 5);
}
5 & 6 , 1 & 7, 9 & 8 are recognized as the same because central points of classes are too similar. What about this ?
As a result, "9" and "8" are more recognizable as well as "5" and "6". Upper parts will be same but lower parts are different.
I can not give you a better answer than your own answer, but I would like to contribute with an advise. You could improve your digits recognition system on the following way:
Apply over the white and black patch an skeletonization process .
After that, apply distance transform.
On this way you can improve results of the classifier when digits are not exactly centered or they are not exactly the same, morphologically speaking.
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